View clinical trials related to Lipodystrophy.
Filter by:To evaluate the prevalence of lipodystrophy syndrome in patients receiving currently available antiretroviral drugs, and the prevalence of associated metabolic syndrome in HIV-infected patients with a previous diagnosis of lipodystrophy syndrome, according to the severity of fat accumulation and antiretroviral drug use.
Lipodystrophy Connect is an online survey tool designed to collect demographic data and health information from individuals with Lipodystrophy.
Background: Several studies have reported increased resting energy expenditure (REE) in people living with HIV/AIDS possibly due to changes in body composition that occurs in HIV lipodystrophy syndrome. The aim of this study was to evaluate the influence of the use of lipid-lowering drugs in resting energy expenditure (REE) and total energy expenditure (TEE) in patients seropositive for HIV in treatment of lipodystrophy.
Lipodystrophies are rare disorders characterized by selective loss of adipose tissue and predisposition to insulin resistance and its metabolic complications. Hepatic steatosis is a common complication in patients with partial and generalized lipodystrophies.Despite aggressive management of diabetes and hyperlipidemia, hepatic steatosis and its complications present a therapeutic challenge in many patients. Due to this large disease burden, it is important to assess the efficacy and safety of novel therapies for hepatic steatosis in patients with lipodystrophies.There are, however, no systematic studies evaluating various therapeutic interventions for reducing hepatic steatosis in patients with lipodystrophies. A variety of drugs have been investigated in nonlipodystrophic patients with non-alcoholic hepatic steatosis and steatohepatitis (NASH) or non-alcoholic fatty liver disease (NAFLD). Recent data support the activation of the farnesoid X receptor (FXR, NR1H4), a nuclear hormone receptor regulated by bile acids, for treatment of NASH and NAFLD. FXR activates transcription of several genes particularly the atypical nuclear receptor small heterodimer partner (SHP, NR0B2) and thus can influence triglyceride metabolism within hepatocytes.Both cholic acid (CA) and chenodeoxycholic acid (CDCA) are ligands for FXR, however, UDCA which is the 7 hydroxy β-epimer of CDCA, does not activate FXR. Obeticholic acid (OCA) is a first-in-class selective FXR agonist which has approximately 100 fold greater FXR-agonistic activity in the nanomolar range, as compared to CDCA .It therefore appears that FXR modulation offers interesting therapeutic possibilities in treating hepatic steatosis. This study is primarily designed to study efficacy of OCA, a strong FXR ligand, in reducing hepatic triglyceride levels in patients with hepatic steatosis and Familial Partial Lipodystrophy (FPLD). If proven to be effective, it may reduce morbidity and mortality as a result of sequelae of hepatic steatosis in patients with lipodystrophies.
This study plans to learn more about immune responses in intestinal (gut) tissue in people with human immunodeficiency virus (HIV) infection. This study will determine whether change in the composition of gut bacteria in HIV infected individuals is related to a high prevalence of chronic gut inflammation and metabolic disease. The investigators will also investigate immune-modulatory properties of specific bacteria that correlate with disease both by characterizing which functional genes are selected for in their genomes and by stimulating immune cells isolated from blood and gut tissue with bacterial isolates. This work will establish whether gain/loss of bacterial drivers/suppressors of information in the gut contributes to metabolic disease in HIV-infected individuals.
Human lipodystrophies (lipoD) represent a heterogeneous group of diseases characterized by generalized or partial fat loss, with fat hypertrophy in other depots when partial.3, 4 Insulin resistance, dyslipidemia and diabetes are generally associated, leading to early complications. Acquired lipoD can be generalized, resembling congenital forms, or partial, as the Barraquer-Simons syndrome, with loss of fat in the upper part of the body contrasting with accumulation in the lower part. The most common forms of lipoD are iatrogenic. In human immunodeficiency virus-infected patients, some first-generation antiretroviral drugs were strongly related with peripheral lipoatrophy and metabolic alterations. Genetic forms are very uncommon: recessive generalized congenital lipoD result in most cases from mutations in the genes encoding seipin or the 1-acyl-glycerol-3-phosphate-acyltransferase 2 (AGPAT2). Dominant partial familial lipoD result from mutations in genes encoding the nuclear protein lamin A/C or the adipose transcription factor PPARgamma. Importantly, LMNA mutations are also responsible for metabolic laminopathies, resembling the metabolic syndrome and progeria, a syndrome of premature aging. Molecular genetic bases of many rare forms of genetic lipoD remain to be elucidated.
Artefill is an injectable facial filler device that is currently approved by the FDA for the correction of nasolabial folds. This study seeks to examine the use of Artefill in the treatment of HIV associated facial lipoatrophy. Facial lipoatrophy (facial fat loss) related to HIV is a stigmatizing condition characterized by loss of facial fat, most notably in the cheeks and temples.
This will be a two-part study in healthy adults. Part A is a phase 1, non-randomized, open label, single-dose, single-centre mass balance study utilizing a radiolabeled dose to investigate the recovery, excretion, and pharmacokinetics of oral GSK1265744 in a cohort of 6 healthy adult male subjects. Subjects will undergo a pre-study screening visit within 30 days of the first dose and those who successfully pass pre-study assessments and meet eligibility criteria will be enrolled into the study to receive the equivalent of a 30 mg dose of GSK1265744 as an oral solution, containing approximately 70 microcuries (mcg Ci) [0.96 millisieverts (mSv)] of radioactivity under fasted conditions. Blood, urine and fecal samples will be collected for a maximum of 504 hours (21 days) following study drug administration. In Part B, approximately 10 healthy male and female subjects will be enrolled to evaluate the single-dose safety, tolerability and PK of supratherapeutic dose of GSK1265744 150 mg compared with placebo. Each subject will receive a single dose of GSK1265744 150 mg or placebo on Day 1 under fasting conditions in the morning. Blood, urine and fecal samples will be collected for 336 hours (14 days) following dosing.
White adipose tissue-related diseases spread from excess (obesity) to lack (lipoatrophies) through aberrant distribution (lipodystrophies), these 3 different disorders being paradoxically able to induce a metabolic insulin resistance syndrome. The respective part of quantitative and qualitative anomalies of adipose tissue, gluco- and lipo-toxicity, liver and muscle insulin resistance, low-grade fat inflammation and immune alterations are not perfectly understood in the metabolic syndrome yet. Therefore, the aim of this study is to assess different cytokines, especially interleukin 7, and metabolic parameters as well as fat mass distribution with DEXA and RMN, in different models of fat distribution, including normal-weight, obese and lipodystrophic patients. A plasma serum, gene and adipose tissue bank will be constituted at the same time to improve our knowledge in disorders linking fat mass, insulin resistance and immunity, especially in lipodystrophies, a rare monogenic model of insulin resistance.
Background: - Lipodystrophy is a condition where people do not have enough fat in the body. People with lipodystrophy can have problems such as diabetes or an enlarged liver. Researchers are looking at how leptin, a hormone produced by fat cells, can help people with these problems. Leptin helps control appetite and how the body stores food. Taking leptin can help people with lipodystrophy eat less food, which may help treat diabetes and other problems. To better understand how leptin works, researchers want to do an inpatient study on leptin treatment in people with lipodystrophy. Objectives: - To study how leptin treatment affects lipodystrophy. Eligibility: - Individuals between 14 and 70 years of age who have lipodystrophy. Design: - All participants will have a 19-day stay at the National Institutes of Health Clinical Center. One group of participants will have tests for 5 days before starting to take leptin. They will then take leptin for 2 weeks, and have more tests. The other group of participants will have tests for 5 days while taking leptin. They will then take stop taking leptin for 2 weeks, and have more tests, and then they will start taking leptin again. - Participants will have regular blood and urine tests during the visit. Some of the blood tests will look at insulin levels. Some will look at how the body metabolizes sugar and fat. Other tests will check hormone levels, especially of reproductive hormones. - During the visit, participants will spend 3 separate days in a metabolic chamber, a special room that measures how many calories the body uses. Urine samples will be collected during these stays. - Participants will also have several body imaging studies, including magnetic resonance imaging and a body composition scan. - Physical activity will be tested with an exercise bicycle and an electronic activity monitor. - Participants will be asked questions about hunger and comfort levels throughout the stay.